smith



0. A; SMITH. MULTIPLE SPINDL E LATHE- APPLICATION FILED NOV. 24, I9".

Patented Oct. 7, 1919.

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A TTORN O. A. SMITH muuma SPINDLi LATHE.

APPLICATION FILED NOV- 24 I911- Patented Oct. 7,1919.

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32 l 2 ll w 0. A. SMITH.

MUL'HPLE SPINDLE LATHE.

AP-PLICATION FILED nov. 24. 1911.

1,3 18 1 16. Patented Oct. 7, 1919.

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A TTORNEV 0. A. SMITH. MULTIPLE SPINDLE LATHE.

APPLICATION FILED NOV. 24,19

Patented Oct. 7, 1919.-

5 SHEETS-SHEET 4 IIIIl/I/I/II/ 0. A. SMiTH. MULTIPLE SPiNDLE LATHE- APPUCATIONFItE-D NOV. 24. 19:1.

Patented Oct. 7,1919.

5-SHEETS-SHEET 5- WITNESS:

UNITED STATES PATENT OFFICE.

OSCAR A. SMITH, OF OII E VEL LND, OHIO, ASSIGNOB 1'0 THE NATIONAL ACME COII'AHY,

OF CLEVELAND, OHIO, A CORPORATION OF OHIO.

m'rrrnn-srrnnnn Lamar.

1,318,116. Specification Letters Patent Patented Oct. '7, 1919.

Application fled November 9!, 1917. Serial No. 203,83.

To all whom t't mlay concern: tools hogging in is eliminated. If the Be it known that I Osoan A. SMITH, a tools have a tendency to hog they will citizen of the United' States, residing at pull away instead of pull into the work.

Cleveland, in the county of Qnyahoga and Another advanta e resides in the fact that 7 State of 'OhiQQhaVe"invented.certa n new this mode of proce ure facilitates etting at 60 20 and eas to keep in alinement in'whic and useful 'I'r'tiprovements 1n,Mnltiple-Spin-' the tools as the operator can stancl in front dleLatheaof hi h the following 18 aspeciof the machine and. watch the tools work fication. and get at any of the tools without going This invention relates to lathes of the from one side of the machine toithe other 10 multiple spindle type an importantpbject as has been necessary heretofore. 65 thereof being to provide an automatic mul- Another advantage resides in the fact that tiple spindle lathe in which all the tools. the chips from the work. are prevented from thereof are. pulled to the work instead of getting in contact with or foul of any of as heretofore, being pushed into the work, y th mechanisms because all of the 0 rative thus providing an entirely newmode of profonpullin the end and Sig: tools 7 cedure or 'method for operatingll liqnitli k are coated at the rear of the 'work, which is very powerfiil ion, d notadjacent towhere the tools and also to provide amachin ofthi s e economical to manufature and.;economical upoii'the work while the side tools aresuplported above the work instead v thesi' es thereof as heretofore, and 75 thereierc the chiss and also the work when f fall irectly into the pan where illinotc interfere with .any of the opp g mechanisms. Another'advantage is that the bearin rthe pull shafts which operate the too 5 an be readilyremoved when they wear and W ones substituted therefor without in any we affecting the 'alinenient or again requirthe too 5 can be readily and quickly a d-i justed, and in which also the movingpart p such as the forming slide anddrilling'slide for operating the forming tools and dril tools are located away from the chips.

Another object of the invention resid in an improved safety mechanism between the camshaft and .the mechanisms operated ngwrleboring of the bearings. 5

thereby, whereby when something unfores seen happens, the tool breaking or amming, i

or. acam catching thereby lacin an entra e foregoin are the important but by strain on the cam shaft, 't is sa etymecli [no means all 0 the advantages resulting anism willoperate and relieve such strain a machine constructed in accordance well as result in a great saving in thebreak with the' present improvement as has been 86 age of parts. y v tually demonstrated in practice by using a 90 A further object of the'invention achine of this type. in an machine of ithe gnultip 'Ig the drawings accompanying and form- 5 indie 'tivpa'fwherein moi-feeding; the i a'part ofthisspecification,

rills an the, feeding of'the stockare oonrigure- 1 is a top or plan view of the v 40 bined in one iinit, thereby doia away wah present improved machine with the motor an independentmeansor slide for each of. driving mechanism which may be used re- (these feedi'n' mechanisms and therebynot moved; Fig.. 2 isa longitudinal sectional only simpli yingthe machinebut making view taken on line 2-2 of Fig. 1 and also it much more economical to build. l of Fig. 5 and lookin inflthe direction of 4b Heretofore it has been the practice Lin; tliearrows with the rent end of the mametal working machines having workw ,chjiieomittedg' Fig. 2"is, a sectional view spindles and slidilrl g. eratin oILline 2-2 Fi 1' of. the omitted end upon the work 7 e ti-I: "offtlie machine; ig2f'3 is'a; front partially 'such tools into Ii resent jcr'oss'sectional view (ifthe. machinewith the ifdirill block removed; the section beingltaken ion line 3 3, 'Fi .1 and Qiandloo 'ng in I edirection oft earrows; Fig. 4' is a cross i sectional View taken on line H Figs. 1 and f2jand looking inthe direction of the arrows; Fig. 5 is a-rear partially cross sectional view bed 2 has'an upwardly extended taken on lines 5-5 Figs. 1 and 2 and looking in the direction of the arrows; and Fig. 6 is a detail sectional view of this improved safety mechanism shown attached to the worm wheel of the cam shaft.

Similar characters of reference indicate corresponding parts in the several figures of the drawings.

As a preface to a further description of the present improvement, it will be understood that the machine may be driven from' any suitable source of power, one of the sources being a suitable motor mounted upon the machine, and in this instance a gear hereinafter described and in position and adapted to be driven by a motor gear is shown, it not being deemed necessary to show the mounting of a suitable motor for driving the machine.

It will also be understoodthat while the present machine is shown carrying tools adapted for the making of nuts, such as castellated or plain nuts, which requires the use of a circular forming tool having a forming portion and a cut-off portion, drills and a blade for removing the bur at the front of the hole in the nuts, that nevertheless the machine may be used for various kinds of Work.

In the resent improvement, it will be understood that all of the tools Work at the same time on all of the spindles, four tool spindles and likewise four work spindles being shown as well as four combined forming and cut-off tools and four work stops, but that the improved mechanism herein shown may be used in connection with any desired number of work spindles and tools, and in fact the various details may be more or less changed without departing from the scope or spirit of the claims.

This improved machine in the preferred form thereof comprises a suitable pan, connected to which is a bed 2, and this pan may have attached thereto suitable removable chip guards.

hear the front end of the machine the rtion 2' in which are housed the Work spindles and above the work spindles the bed is hollow or box shaped as at 2". To the front side of this box shaped portion is bolted the slide unit carrying in the present instance the forming and cut-oil tools and to the rear of this box shaped portion is bolted the work spindle locking and unlocking wedge operating unit and in the center of this hollow or box sha (1 portion of the bed certain gears are ocated for driving the work spindles. This box shaped construction of the bed makes the spindles very accessible for the purpose of lubricating the same. At the rear of the bed a suitable distance apart are two extended bcarin located in alinement with bearings at a front outer end of the bed and these bearings act as guideways for the drill table pull rods hereinafter explained. Carried by the bed in suitable bearings in each end thereof is a cam shaft 23 (see Fig. 2). To the outside of the bed at each end thereof and bolted in line with the end of the cam shaft are thrust sockets 19, each having on its inner side a bore or recess 19 for the reception of a hardened plate 19 and a ball 19. Into one of these sockets 19 is housed a set screw. 19 in position to engage the hardened plate 19'. The balls in the socket are in position to engage the ends of the cam shaft and by adjusting the screw 19 the lengthwise play of the cam shaft will be quickly taken up in a manner which will be readily understood and when the screw 19 is properly adjusted its adjustment will be maintained by a nut 19". The foregoing thus provides an antifriction adjustment for holding the cam shaft in position against lengthwise play.

The work spindles hereinafter referred to are as hereinbefore stated, housed in the upwardly extending portion 2' of thebed and are located in parallelism with the cam shaft. In suitable bearings of the bed 2 between the work spindles and the cam shaft and extending at ri ht angles thereto is housed the worm sha driving the cam shaft. Mounted in the bed 2 andextending through a suitable bore of the same so as to project into the bed the desired distance is a hollow cam shaft sleeve or bracket 58, which bracket acts as a hearing for one portion of the worm shaft 51. This bracket 58 is provided with an upwardly extending right angle portion 58 bolted to the bed as at 58" and carried by this upwardly extending portion 58" of the bracket is a pinion shaft 56. A sleeve 52 having a bearing in a bore of the bed forms a bearing for the other end of the worm shaft 51. Tothe inner end of this sleeve 52 is keyed a worm 50 adapted to mesh with the worm wheel 44 hereinafter described on the cam shaft 23. A ball thrust 50 is housed between the inner end of the bracket 58 and the inner end of the sleeve 52 and to the outer end of the sleeve 52 and the worm shaft .51 are fastened suitable gears of a change gear setA, whereby the speed of the worm shaft 50 may be-varied as occasion may require. The end of the worm shaft 51 has a collar 53 fastened thereto and one of the change gears as 53 of the set of change gears A is fastened to this collar and this change gear 53 meshes with mounted on asleeve loosely mounted on a stud 53. This stud is supported by a slidin bearing located in a suitable slot macloned in the side of the bed, so that it can be shifted toward and from the worm shaft thereby to accommodate different sizes of 51 (see Fig. 4) for a gear 53" v gears in a manner which will be readily understood and which feature is unnecessary to showsince it is well known in National Acme machines. To this gear 53 is pinned a pinion 53 which meshes with a gear 53 pinned tothe sleeve 52, into which the worm shaft 51 projects. By means of this change gear system it will be seen that when worm shaft 51 is rotated the sleeve 52 will be rohated and through the worm thereof the .Worm wheel 44 will be driven to drive the cam shaft 23. On the opposite end of the worm shaft 51 so as to bear against the outer face of the bracket 58 is loosely mounted clutch sleeve 61' this clutch sleeve being held in position against the bracket 58 a collar 61 pinned to the worm shaft 51.

ounted on the clutch sleeve 61 by means of a key is a bevel gear 59 and to the back face of this bevel gear is suitably secured a chain sprocket 60. Mounted on the end of the worm shaft 51 by means of a key and key-way is a sliding clutch sleeve 57 The opposed face of the clutch sleeves 57 and 61' have suitable mating teeth. A suitable safety lever 57 is carried by the clutch sleeve 57 but as this element is well known in National Acme machines a detailed description thereof is deemed unnecessary. When necessary the cam shaft can be turned over or operated by the worm shaft 51 by means of a handle or hand lever, which is attached to the outer squared end of the worm shaft 51 adjacent to the clutch 57. The clutch 57 is housed in an extended bearing 57 bolted to the bracket 58, and thus this bracket 57" acts as a support for the outer endof the'cam shaft 51. As the clutch 61 is loosely mounted onthe worm shaft 51 it can run continuously from the driving gear 64' hereinafter described without rotating the worm shaft 51 or the cam shaft 23, but when the clutch sleeve 57 is shifted by a suitable clutch shifter or shifting mechanism or hand lever, not shown,

into engagement with the loosely mounted V clutch. member 61', then the worm shaft 51 will be rotated and therefore of course the cam shaft'23. To 1 the lower end of the pinion shaft 56 so as to mesh wlth bevel gear 59 on the worm shaft 51 is located a bevel gear 65 and to the upper end of this pinion shaft 56 and resting against a thrustwasher 62 is ke ed a bevel gear 63, which is in mesh with a evel gear 64 keyed to the hub of a motor driven gear 64 (see Figs. 3, 4 and 5) and in mesh with this motor gear 64' will be the usual motor driven gear when an electrically driven motor is used for driving the machine. When however, other power is used, a belt pulley will.be substituted for the drivin gear 64'. The driving gear 64' or the riving pulley as the case may be, is mounted on a spind e driving shaft'55, which extends transversely into the upright portion 2 of the bed (see Fig. i). This shaft extends in parallelism with the worm shaft 51 and therefore transversely to the cam shaft 23. Loosely mounted on this drive shaft 55 but connected with the hub of the motor gear 64: by suitable pins is a gear 67 constituting one gear of a set of change gears B. In parallelism with the driving shaft 55 and secured to the bed 2' is a change gear stud 67 (see Fig. 5) carrying a gear 67 in mesh with gear (37 and a pinion 67 pinned to gear 67 and in mesh with a gear 67 keyed to the shaft 55. The gears 67" and pinion 67, which are pinned together, run loosel on the stud 67 which may be made ad]ustable like the stud of change r set A. B changing the gears of this c ange gear setl3 or supplying gears with a different number of teeth and properly arranging them different s eeds can be given to the shaft 55 without 0 anging the speed of the driving gear 64 or pulley as the case may be. Of course the change gears B could be dispensed with if desired, and in fact in Fig. 1 this set of change ears B is omitted,'the shaft 55 bein then irectly driven by the gear 64, whici will then be fixed to said shaft. To the inner end of the driving shaft 55,--which incidentally may be termed the main driving shaft since it is this shaft which is directly connected with some suitable source of power and from this shaft the various driven mechanisms derive their source of power,is secured by means of a key, a bevel gear 83 in mesh with a bevel gear 34 secured to the spindle driving shaft 30 mounted in the extended rtion 2' of the bed 2, and from which spin le driving shaft the work spindles are rotated and for this purpose a spur gear 33 is secured to the outer. end of the shaft 30 (see Fig. 2). Below the spindle driving shaft 80 and housed in the bed extension 2' is a suitable stud 32, on which is loosely mounted a spur gear 31, which gear is in mesh with the spur gear 33 and also with two spindle driving gears 21, one located on each of the center spindles,

and which gears 21 are in mesh with similar gears 21 of the two outer spindles, four s indies in the present instance being shown (gee Fig. 5). Thus the work spindles are driven from the driving gear 64 through the change gears B, meshing bevel gears 83 and 34, spindle driving shaft 30 and spur gears 33, 31 and 21.

Bolted to the front end of the bed 2' directly above the work spindles, is the forming and cut-oil slide rest 4 (see Figs. 2 and 3). Into this slide rest are machined two dove-tail slideways 4 (see Fig. 1) for the reception of two slides 72, which are maintained in their slideways by means of suitable gibs and screws. Each of these slides is provided with a downwardly extended portion 72' (see Fig. 2), each projecting between a air of spindles and to a suitable distance elow the same, and the lower end of each of these downwardly extending portions 72 is provided with a square portion or hook 72". Carried by a pair of studs 70 is a pair of pivoted slide operating levers 70, each of which has an end projecting into the squared or hooked portion 7 of the downwardly extendin portion 72 of a slide 72 and the lower ends of these levers are in contact with suitable cams 70' on a cam disk 25 carried by the cam shaft 23. Thus, the slides 72 are shifted up and down from the cam shaft 23 by the means just described to bring the forming and cut-off tools into engagement with the work and to carry the same away therefrom Directly above each work spindle and mounted in suitable grooves provided therefor in the two slides 72 are housed the forming and cut-oft tool holders 73 shown herein as four in number, these holders being secured to the slides by means of suitable clamps 73' and clamp screws. To the lower end of each of these holders is bolted the forming and cut-oil tool 74 the working or cutting edges of which are shown located one behind the other, the cutting-0E tool being shown in the rear of the forming tool gsee Fig. 2), and at the upper end of each 0 the holders 73 suitable adjusting screws 74' are carried by the slides '72 for adjusting the depth of cut of the forming and cut-oif tools. Midway between and in front of each pairof. forming and 'cut-ofi' tool holders 73 is a stock stop bar 41, this bar being located in a suitable groove machined in the face of rovided at its lower end 41 PI'O'.

its slide 72 and is with extended portions or bearings jecting to the right and left of the bar 41." to support the stock stops about to bode-f ginto suchq-tool shde bearings, 1s entlrely .elim-inatedfwhereas in prior machines the;

scribed. The bar 41 is provided withelonted slots so that it is adjustably supported y bolts 41"on its slide 72 and therefore] iat thesldes of the machine in such pos tion movable therewith and this bar is adjustable by means of a screw 42 secured in apost 1. would not 1n projecting from the frontof itsslide 72.

n 41 is housed. an adjustable roller sha ried by-the upper end of this stud jand-resting against the angled face 414 is a roller 41'. A binder screw 41 vis housed at, the

' underside of the extended bearing 41?, and

so binds the shaft 41 inposition. An adlusting screw 41 ishoueed in the 11 per portion of the extended bearing 41' and en- .the shaft 41, and clamped in the desired erated these sprin each extended bearing 4 "ofa sto t and the upper portion 41of each'of the ex 5- tended bearings 41" is machined at a suit able angle, and a suitable slot Otis; W formedin the rear side of the'upper per-[lithe work 7 I atin'g lever racket 12 (see F1g.-5).

gages the roller stud. By. loosening the binder screw etl and mani ulating the screw 41, the stud with its rol er 41 can be. adjusted forward and backward together with position, or by means of the roller shaft 41 the stud and its roller 41' may be shifted sidewise should occasion require. These stops regulate the distance that is required for the work or stock to feed forward when the machine is operated and the rollers eliminate all dangler of the stock or work spinning or r0 ing up when it is fedthem. a suitable recess of the slide rest 4 (see Fi 2) are located return tension springs 38, t e upper ends of which are fastened to the slide rest 4 by suitable screw pins,.while the lower ends are fastened to the slides 72 and when the slides are 0 havea tendency to ta e up the shock of t e tools when cutting on 4 square or hexagonal stock, and thus steady the out. They act much in the same way as snubbers on an automobile.

To the upper portion of each slide 72 is bolted stop plate 5 (see Figs. 2 and 3) and these stop plates have a rearwardly extended portion projectin over the slide rest 4 and located 111 each 0 these rear extended portions is an adjustable screw 5', which is adjusted to permit the roper sliding movement downwardly of t e slides 72, and thus acts to arrest the downward travel of these slides 72 when the forming tools have cut the required depth. i

One of the advantages of havin the forminga'ndcut-ofi' tool slides locate above the work-and the drills in the manner shown, is I.

that alldanger of chips getting into these toolisli'dea} hearings or cutting compounds that-have, no lubricating qualities running forming cut-oil" tool slides were located theehi sjfiyi off from the work out y get into the bearings, aszwould also portions o'fthe cuttin 7 compoundathus endangering and materia ly interfering with the proper work thereof.

' f To the rear of. the extended portion 2'. of the bed-Band a suitabledistanoe above h indies is bolted the wed operivoted to suitable projections of this bracket 12 are located oppositely; extendin portions 24" formed on or connected wita wedge operating lever 2i, each of theaerlght and I by: means of suitable pins 69 (see Fig. .2) is exane inner sides of the bed in suitable alinement with the wedge operating levers 2A: are pivoted on suitable studs 71 (seeFigzE) a pair of wedge 0 rating levers68, each rovided with a rad i iil slot in its upper on for the reception of the semi-circular head of the lovers 24. The lower ends of these levers 68 are provided with studs and rollers in position .to contact with suitable cams 68' on a cam drum 66 (see Figs. 2 and 55) mounted on the cam shaft 23. Each wedge lever thus operates upon two work spindles and the mechanism shown herein provides a very powerful organization for this purpose.

On each side of the bed a suitable distance away from the two outer work spindles and 7 a little below and parallel'with the same is located a pair of endwise movable shafts or rods designated herein as pull rods or drill table pull rods 10. These rods are housed for sliding movement at the rear end of the machine in bearings 10' carriedb the bed 2 and they are also an rted by earings in the bed 2 at each s1 e of the cut-off and forming tools (see Fig. 3). Secured to the front ends of these rods by suitable set screws is drill table 3 (see Fig. 1) and this drill talble is rovided with suitable bores 3 shown as our in number, in line with the work spindles, and in these bores are located drill holders 8 carrying drill bushin of a size to fit the desired size of drill 8 which is to 'be used. In the present improvement it will be observed that the work spindles rotate while the drills slide toward and from the work without rotating.

Each of these brackets is provided with a pair of extensions reachin somewhat beyond the center of the drill olders an (each of these extensions carries an adju ting screw 29 in position to engage the rear: end of the drills ro'ecting through the irear ends of the rill holders 'T is backing bracket and plate or screws thus act as an adjustment for the drills and also to back up the drills when cutting.

As hereinlbefore stated, the machine is shown provided with tools for making nuts, but when making screws, the drill holders and drills will be replaced by a box tool or 4 therefore a detaile a turning tool of any reduired design. In other words, a tool suitafb e for the work to be done will 'be substituted for the drills. Mounted on the rear of the pull rods 10 (see Fig. 1) between the rear ends of the work spindles and the rear bearing 10 for the pull rods and secured to the pull rods by; suitable set screws is a combined drill table-and feed operating slide 11 (see Figs. 1 This slide is provided with two "sets-of upwardly extended bearings 17 each pair being located in a line midway between each pair of Work spindles and into each pair of bearings is fitted a feed slide bar 17. On the inner end of each of these bars is fastened by means of a hub and set screw, 9. disk 18 of a suitable width and diameter to fit into the grooved ortions of the s 0015 16 on the end of the feed tubes 1 6 of the :work spindles, and on each of the bars 17 are located a pair of adjustable collars 7 6 and 77, one, 76. directly back of the disk 18 and the other on the rear end of the bar, the purpose of which will be explained hereinafter. Secured to the bottom of the slide 11 centrally thereof is a stud and roller 11 in position to contact with suitable cams 11" at the proper time on a cam drum 22 carried by the cam shaft 23. This cam drum carries the slide 11 backward and forward and with it the pull rods 10 oaf and therefore the drill table 3. The work spindles designated in. a neral way as Q90 are of the well hown ational Acme type and each comprises a chuck at its forward end, a feed tube and correlated parts, such as a feed chuck, a wedge 15, a finger block 13, and fin ers 1-1, which fingers l-l operate the push tu for o eratin the chucks and description thereof is not. deemed necessary in the present case.

dsuitable oil reservoir, usual in multiple spindle machines, will be provided, from "which suitable tubes extend to the various Carried in slots of the drill holders are bearings of the machine and the oil is pumped through these tubes by a suitable pump which will be driven by the Sprocket gear 60 on the worm shaft 51.

A safety mechanism is provided in the present machine for preventing damage thereto. This safety mechanism in the present instance is located on the cam shaft, which is effective when something unforeseen happens, as a tool breaking or jamming or a cam catching and there-byplacing an extra strain on the cam shaft to relieve such strain and prevent the breakage of those parts of the machine operated by the cam shaft. This safety mechanism in the present instance is located, as stated, on the cam shaft and coiiperates with the worm wheel 44 so that in the event of something unforeseen happening the worm wheel can continue to rotate without rotating the cam shaft. Referring to Figs. 6 and 2, the cam shaft has a6 '48 with a center dpenimgpot thesamendiame tel as that in the bushings ofithe hub imid ca'rried by the" b nshingt lifi and '48 grea 'paiir it ofpi'ns' 48'-,; andthesepi ns 48mm backed 21111 by screws '19 leca'tmif in 'th plite 85% if w stmin' greater thmn: these *pinsmlll; stand placed the mechanism: oi? the -mfichiniefu 6B P l hfir' wk bhra :t'o Fiorwudegamst the istp mlls,-this: upward moszea 'lfii' i woftheflll esmesicoursegnanryin lathe" fastened heretofi wermiiwlieel ahub'mx 45, this mihbef heing keyefl Mid bolted I preps: eblisists of ai-brenze liilg nr fl lmvingsiiitfllflii teetl l omits periphery 1:0 1

mesh Withsthe 6f? the gshnft mining? plate i he the cam shaft. ai sifitwhledistancefibsrb and into the front; face o t: the idisle 01' hub- 45 are inserted two hardenedhushings; 46,

in the hub 45, twe hai'delrieii steel bushings the'pins we: shea r as the wenflavi -h rizfg 43 is'fastenedtightly to the'dx ivi np; of retaining jjjlate 85 and: both ther efor heldin pbsitio'zf 0n the peniphery of thehtfii @1 disk 45 by the elanfpingplatefii, iit follnws that the worm wheelwill rotate relmtively to the hub 45 without ro-tatingthe-hwb145,mad

therefore without rotating the camshaft 23,: so that the cam shaft iemain idleuntilrthe broken pins lime :laeen rembyed: rend new 5 ones inserted, and-thenefore the meehacnisms operated by the em?! *shwftremdim inn per i,

ative. In the present constrlietien therefore, it will "be observed that'the 'wormm huh, so that no rotary 1isuzn'rementt6 the team shaftwili be In the opersztinn' bf I be aintlerstoed that after theour bars? hive been suitably drilied mild that as the 'dz 'ill's are 'reeeding awsiy the drill bats,- theslides arerapidly' hrought ddwmwm-d tohave the cut-Off tools thaerw ifi sever thedrilled nuts from thezsteck bal s and that as these slides 72 continue to "downward means qtithe slide and; theibam mechanism herembeafiore it e teed 803 1 .ably' i la heeL'M 1 the drills emme afiathisfimeysd that the forming tools" will tools are muved fieiwhw ard'the Stdprolls 011;

limiting the forward mowement ofz the stocky 170; bars: same "likewise carried demm mrd, being i.

canfied by the "S33E81 slide 112, awayfmin zthe ehb that zwhen the *ient-if and formm gfi teels Verena ambvedp upwgiwd the step rolls are egain brotlghtl htoifinsitona tog limit 75; 1 the. l nwmi inovemntldizthe stegk bami f It will ele e lle 'tliaifthel driJls Earle movedefdrwa'md teengages the :sfaekzham by a rated;

tubes axe eamied nearwardlynox to the-might (Fig.5 1%} b. meaiis of -the disks-ifi and: rods, or shafts a1 jazrrie'dzby ltherzslide 11 and.

position to gfeed thebars dfistock zfiorwvardly agamst the step; 0118 ati thezproper and thatr wheiz the (illiHBLlfiBdB from the work movement of the slidev ll ifor'wardly toward or are moved to the left (Fig. 1) by the r;

7 the left; then the :feed' :tubes are forwardly gthei iEeeich-lmkshavingbeen preperI-y cl'bsd efi theywerktoyptishithe ban-slot va stijek forward :z: Aswmmg the;

engagement with? the E,

' qftthe'slidesi mikes seyeredga finished ipiece from iza h gofvthel -fonn bars: nfistock in theworkiapmdles the; $111168; 72 Qentinue to feed dewnmrd s0thetathe;fanning, mien of? each circular timls Willi Bnot i -1m nds 9i the 45mm buns; whereupon.

thwlides T2; aremniekly mnveeau mrd tn step mlls withthemimto 7 the-iowmi gniovement" bf the; ;stock ball-s, the: ates rrollers at course having; euitw have prevaomlyi drilled. ':=.-Thereupen the slides 'm unmarried deni nmardly ust faJ-Eeneugh tn aillaw theshop tellers: tfogclean the ends hi the :stbelnijbare in-the werki spin; 1

dles, dtgring which mouefimntthe drill table; and. dgnlls are pulled femu -dehymeans 'of-fi the slide ll. awry the drills quickly up to; the; 1 bars and intor thn same. I

practiee, one camgnwthe camdrg1m22 pulls otheni cam t the. hats: the::desi1'edi idistnnne ithe slideswfi mon ipnlls thiakdrillsxirito the stuckbflm -;=Wl1en the drillsihavfezenteretl then continue to JIIGWMdOWRWMldzSD ast to carry; the cut-0E to'olst intorpiesitipn to out ofi the'fin'ifihed nilts'. Before this-operation take's place however; the have been F again pushed awayrirem the stock hats,

qg p l mii and mechanism fdr feedmg the bars and 6. In a mul machine, th 'gnflii bination of a plurality of work spindles, means for feeding work through the spindles from the roar the-roof toward the tools, a plurality of ondwisv working tools located in alincment with said work spindles, means for rotating the work spindles and the tools one relatively to the other, means for pulling the work spindles and the tools into engagement one relatively to the other, a plurality of side working tools shiftahle up and down toward and from the work, and means for pulling said side working tools into engagement with the work.

7. 'In a multiple spindle machine, the combination of a plurality of rotatable work spindles, means for rotating the spindles, a plurality of slidingly supported endwise working tools corresponding in number with said work spindles, mean operative to shift said tools and pull the same into engagement with the work, a plurality of side working tools corresponding in number "with the spindles and supported above said spindles, means for shifting said side workin tools into engagement with the work, and work stops movable with said side working tools.

8. In a multiple spindle machine, the combination of a plurality of rotatable work spindles, means for feeding the work through the spindles from the rear thereof toward the -tools, means for rotating the spindles, a plurality of slidingly sup orted tools corresponding in number wit 1 the work spindles, and means operative to shift the tools and pull the same toward and into engagement with the work.

9. In a multiple spindle machine, the combination of a plurality of rotatable work spindles, means for feeding the work through the spindles from the rear thereof toward the tools, means for rotating the spindles, a plurality of slidmgly su ported endwiseworkin tools correspon ing 1n number with said work spindles, mean 0 erative to shift said tools and $11 t e same into engagement with the wor a plurality of side working tools also corresponding in number with the work spindles and supported above said spindles for movement u and down toward the work, and means or shifting said side working tools into engagement with the work.

10. In a multiple spindle machine, the combination of a pluraht of rotatable work indles, means for eeding the work tlirough the spindles from the rear thereof means for rotating the spindles, a plurality of slidingly sup rted tools corresponding in number wit said work spindles, means operative to shift the tools and pull the same toward and into enagement with the work, a. plurality of toward the tools,

' 'ormin'g and cutting tools located above the work a indies and supported for movement up an down toward and from the work,

and means for also pulling said forming and cutting tools into engagement with the work.

1 1. In a multiple spindle machine, the ('(nnbinution of a single bed, a series of work spindles located side by side in a horizontal plane on said bed, means for feeding the work through the spindles from the rear thereof toward the tools, means for rotating said spindles, a slide, a series of endwise working tools carried by said slide and corresponding in number with the number of work spindles and also located side by side in a horizontal plane and in alinement with the work s indles, and mean for shifting said slide t erebym to pull the tools into engagement with t e rotatin work.

12. In a multiple spin le machine, the combination of a Single bed, a series of work spindles mounted upon said bed in a horizontal plane side by side, means for rotatio said spindles, means for feeding the work t roughthe spindles from the rear thereof toward the tools, a slide, a series of endwise working tools carried by said slide and corresponding in number with the number of the work spindles and also located in a horizontal plane SIClB b side and in alinement. with the work spin les, means for shifting said slide thereby to pull the tools toward and into engagement with the rotating work, a series of formin and cutting tools. supported above the wor l: spindles for movement up and down and corresponding in number with the number of the work spindles, sliding means for supporting said tools, and means for also pullmg said tools into engagement with the work.

13. In a metal working machine, the combination of a work spindle, an endwise working tool in alinement with the work spindle means for rotating one of said parts, means or pulling one of said parts into ongagement with the other, and means coding the stock through the work spindle, said stock feeding means-and pulling means comprising the same mechanism.

14. In a metal workin machine, the combination of a. work s ind e, a. took-means for rotating one of sai parts, means for pulling one of said parts into engagement with the other, and means for feeding the stock through the wor spindle, said stock feed-' ing means and pulling means comprising the 8?:138 mechanism and including a single s 1 e.

15. In a metal working machine, the com- 'bination of a plurality of rotatable work spindles, means fomrotating' said spindles, a plurality of sliding endwise working tools cotiperating with the work spindles, means for pulling said tools into on gement with the work in the work spind'es and means for feeding the stock through the work spindles, said stock feeding means and tool for V said work spindles, a pl nsaid work'spindles, a plura 1ty ment Withfthe work simu through said spindles, and means including a slide for operating saidfeeding means and said endwise workin'itools and effective to pull the endwi'se' wor tools into engagement with the work sim taneously with the retraction of the feeding meansand also effective to push the moisaway from the work simultaneously with the feeding of such work. a

26. In a multiple spindle machine, the combination of a pluralit of rotatable work spindles, means for rotating "said spindles, a plurality of slidingly "supported endwise working tools correspondin'F in number with ity'o-f side working tools slidin'gly supportedabove said work spindles, means for feeding work bars three? said spindles, means including a slide or operat said feeding means and said endwise wor and efiective to pull the endwise wor n'g tools into cilia?- ment with the work simultaneously wit e retraction of the feeding means, and shiftable stops for limitingthe-forward movement 0 the work.

27. In a multiple spindle machine, the combination of a lurality'ofrotatahlo work spindles, means or rotating said spindles, a plurality of slidin'gly supported endwise working tools correspondin in'number with of side working tools slidingly supported above said work s indies, means for feeding work'bars throu said s indles, means including a slide oroperatmg said feedin "meansand saidendwise workin tools "efl'ective to pull the endwise wer in, tools into taneously'wilt t e retraction ofthe feeding means and a so'efmovement of the work, gal

festive to push the tools'away from the work simultaneouslv' with the feeding of such work, and shiftable stops for limiting the forward movement of the work.

28. In a multiple s indie machine, the

combination of a plurality ofrotatable work spindles, means for rotating said spindles,

a plurality of slidingly' supported endwise 4 workin tools corresponding in number with said work s" indies, a plurality of'side working tools 5' idinglysupported above bars throng said spindleqmeansinc uding a slide for operatui and said endwise wor '11}: toolsand effective to pull the end'wise worklng'tools into ongement with the work" simultaneously with the retraction of the' feeding means, and shifta-ble stops for limiti the forward stops; being mevable'with said sidetoolsf v a 29. In a multiple spindle machine, the combination of a plurality of rotatable work spindles, means for rotating said spindles, a lurality of slidingly su ported endwise working tools 'oorrespon mg in numdles, a

said feeding means her with said work spindles, a plurality of side working "tools slidingly supported above said work spindles, means for feeding work bars through said spindles, means including a slideffo'r operating said feeding means andsaid end'wis'e working tools and effective to pull the endwise working tools into enga ment with the work simultaneously with the retraction of the feeding S plurality of slidingly supported endwlSe working tools correspondin in number with said work spindles, a lura ity of side workin tools correspon ing in number with said work spindlesand supported above said spindles, a lurality of work stops movable with the si e worklng tools and corres 0nding in number with said work spin es, a plnrallty of means corresponding in number with "the work spindles for feeding stock rhrough'the spin les,'and means for pull.- ing the endwise-tools into engagement with the work, drawing the side tool into engagement with the work, carrying the work stops into and ontof position and feeding the work and comprising cam. mechanism including a cam shaft, and a'slide cooperating w1th the endwise tools and the work feedm' 'means.

81. n a muliple spindle machine, the

combination of a plurality of rotatable work spindles, means for rotating said spindles, aplurahty of slidingly supported endwise working tools correspondin in number with said work spindles, a plura ity of side working tools corresponding in number with said work spindles and supported above said spindles, a plurality of work stops movable wlth'the side working tools and correspondingi in number with said work spire p nralit v of means 'corres 'onding in number with the work spindles r feeding stock through the s indles, means for pulling the'endwis s into engagement with the work, drawingthe side tools into engagement with the work, carrying the work 1 stops :into and out 'of position and feeding the work and comprismg cam mechanism including a cam shaft, and a slide eoiiperatin with the endwise' tools and the work fee 'ing means, and safety mechanism effective to 'perrnit the cam shaft to remain idle under certain conditions.

32. In a multiple spindle machine, the combination of a plurality of rotatable work spindles, means for rotating said spindles, a plurality of slidingly supported endable with each of said slides. and a plurality of work stops also supported by and shiftable with each of said slides.

51. In a multiple spindle machine, the combination of a plurality of rotatable work spindles. means for rotating them, a plurality of slides supported above said work spindles edge to edge, means for shifting said slides toward and from the work, a plurality of tools supported by and shiftable with each of said slides, and a plurality of work stops connected between a pair of r tools with each slide for movement therewith. I

In a multiple spindle machine. the combination of a plurality of rotatable work spindles. means for rotating them, a plurality of slides supported above said work spindles edge to edge. means for shifting said slides toward and from the work. a plurality of tools supported by and shiftable with each of said slides. a plurality of work stops connected between a pair of tools with each slide for movement therewith, and means for adjusting each of the tools relatively to its slide.

In a multiple spindle machine, the combination of a plurality of rotatable work spindles, means for rotating them, a plurality of slides supported above said work spindles edge to edge, means for shifting said slides toward and from the work,

a plurality of tools supported by and shiftable with each of said slides, a plurality of Work stops connected between a pair of tools with each slide for movement therewith, and means for adjusting each set of work stops relatively to its slide.

54. In a multiple spindle machine. the combination of a plurality of rotatable work spindles. .means for rotating them. a plurality of slides supported above said work spindles edge to edge, means for shifting said slides toward and from the work. a plurality of tools supported by and shiftable with each of said slides. a plurality of work stops connected between a pair of tools with each slide for movement therewith, means for adjusting each of the tools relatively to its slide, and means for adjusting each set of work stops relatively to its slide.

In a multiple spindle machine, the combination of a plurality of work spindles located side by side in a horizontal plane, feeding mechanism therefor comprising a slide. means for shifting it. a rod carried by said slide, said slide having a back and forth movement relatively to the rod, and means carried by the rod for engagement with said slide whereby the rod is shifted in opposite directions thereby to feed the stock to the spindles.

56. In a multiple spindle machine, the combination of a plurality of work spindles located side by side in a horizontal plane, feeding mechanism therefor comprising a slide. means for shifting it, a plurality of rods carried by said slide, said slide having a back and forth movement relatively to the rods. and means carried by the rods for engagement with said slide whereby the rods are shifted in opposite directions thereby to feed the stock-to the spindles. each of said rods operating to feed a pair of spindles simultaneously.

57. In a multiple spindle machine. the combination of a plurality of work spindles, located side by said in ahorizontal plane, means for rotating said s indles and comprlsmg a gear carried y each of the spindles and meshin one with another. a gear for driving sait gears a shaft extending in parallelism with said spindles. a main driving shaft evtending transversely to said spindles. meshing gears on said shafts. and means for driving said main driving shaft thereby to rotate the spindles.

58. In a multiple spindle machine. the combination of a plurality of work spindles located side by side in a horizontal plane. means for rotating said spindles and comprising a gear carried by each of the spindles and meshing one with another. a gear for driving said gears, a shaft extending in parallelism with said spindles. a main driving shaft extending transverselv to said spindles. meshing gears on said shafts. and means for driving said main driving shaft thereby to rotate the spindles and including change gear mechanism.

59. In a multiple spindle machine. the combination of a plurality of work spindles. means for rotating said spindles and comprising a gear "carried by each of the spindles. a gear for driving said gears. a shaft extending in parallelism with said spindles. a main driving shaft extending transversely to said spindles. meshing gears on said shafts, means for driving said main driving shaft thereby to rotate the spindles. a worm shaft, means for driving said worm shaft and comprising an upright shaft and a set of gears at each end thereof. one operative from the driving means for the main driving shatt, a cam shaft driven by said worm shaft, a sliding tool carriage. and means carried by the cam shaft for shifting said sliding tool carriage.

60. In a multiple spindle machine, the combination of a plurality of work spindles, means for rotating said spindles and comprising a gear carried by each of the spindles, a gear for driving said gears, a shaft extending in parallelism with said spindles, a main driving shaft. extending transversely to said spindles, meshing gears on said shafts. means for driving said main driving shaft thereby to rotate the spindles, a worm shaft, means for driving said worm spindles, a main drivin shaft and comprisin an upright shaft and a set of gears at eac end thereof, one operative from the driving means for the main driving shaft, a cam shaft driven by said worm shaft, a slidin tool carriage, means carried by the cam s aft for shiftin said sliding tool carriage, a plurality 0 side working tools, and means carried by the cam shaft for shifting said side workmg tools.

61. In a multiple s indle machine, the combination of a plum ity of work spindles, means for rotating said spindles and comprising a gear I carried by each of the spindles, a car for drivin said cars, a s aft exten ing in aralle ism with said spindles, a main drivin shaft extending transversely to said spin les, meshing gears on said shafts, means for driving said main driving shaft thereby to rotate the spindles, a worm shaft, means for driving said worm shaft and comprising an upright shaft and a set of gears at each end t ereof, one operative from the driving means for the main driving shaft, a cam shaft driven by said worm shaft, a slidin tool carria means carried by the cam s aft for shi tin said sliding tool carriage, a plurality of side Working tools, and means carried by the cam shaft for shifting said side working tools, said side working tools being supported above the work spindles.

62. In a multiple spindle machine, the combination of a plurality of work spindles, means for rotating said s indies and comprising a gear carried y each of the spindles, a gear for driving said gears, a shaft extending in arallelism with said spindles, a main drivin shaft extending transversely to said spin les, meshing gears on said shafts, means for driving;l said main driving shaft thereby to rotate t e spindles, a worm shaft, means for driving saidworm shaft and comprising an upright shaft and a set of ears at each end thereof, one o erative rom the driving means for t e main driving shaft, a cam shaft driven by said worm shaft, a sliding tool carriage, means carried by the cam shaft for shifting said sliding tool carriage, a plurality of side working tools, means carried b the cam shaft for shifting said side working tools,

and safety mechanism between the worm shaft and the cam shaft.

63. In a multiple s indle machine, the combination of a plura ity of work spindles, means for rotating said spindles and'oom prising a gear carried y each 'of the s indies, a ar for drivin said gears, 11. siiaft exten ing in paralle ism with said shaft extending transversely to. said spin les, meshin gears on said shafts, means for drivingl sai main driving shaft thereby to rotate t e spindles, a worm shaft, means for drivin sai worm shaft and comprising a set of c ge gears,

an upright shaft and a set of gears at each end thereof, one operative from the driving means for the main driving shaft, a cam shaft driven by said worm shaft. a sliding tool carrier, and means carried by the cam shaft for shifting said sliding tool carmen 64. In a multiple spindle machine, the combination of a plurality of rotatablework spindles, a sliding too] carrier, means for rotating said work spindles, means for sliding said tool carrier, a slide supported above said Work spindles, a side forming tool carried thereby, means for operating said slide, and a spring connected with said slide.

65. In a multiple spindle machine, the combination of a plurality of rotatable work spindles, a sliding tool carrier, means for rotating said spindles, means for sliding said carrier, a slide supported above said work spindles, a plurality of side tools carried by said slide and corresponding in number with the number of work spindles, means for shifting said slide, and a spring connected with said slide.

66. In a multiple spindle machine, the combination of four rotary spindles, gears carried by each of said spindles, means for rotating said gears and includinp a shaft extendmg in parallelism with sai spindles, a main driving shaft extending transversely to said spindles, gears carried by said shafts, means including change gear mechanism for driving said main driving shaft, a worm shaft, means including change gear mechanism for rotating said worm shaft, an upright shaft, :1 set of bevel gears at each end thereof, one set operatively connected with the driving means for the main driving shaft, and clutch mechanism between the other set of bevel gears and the worm shaft, a cam shaft, means thereon insafety mechanism for rotating said said slide.

, 67. In a multiple spindle machine, the combination of four rotary spindles, gears carried by each of said spindles, means for rotating said gears and includin" a shaft ex-' tendin in parallelism with said spindles, a

main rivin shaft extending transversely to said spind es, gears carried by said shafts, means including change er mechanism for driving said main driving shaft, a worm shaft, means includin change gear mechanism for rotating sai worm shaft, an upright shaft, a set of bevel gears at each end thereof, one operatively connected with the driving means for the main driving shaft, and clutch mechanism between the other set of bevel gears and the worm shaft, a cam shaft, means thereon including safety mecharotating said gears and including a shaft extending in parallelism with said spindles, a main driving shaft extending transversely to said spindles, gears carried by said shafts, means including change ar mechanism for driving said main driving shaft, a worm shaft, means including change gear mechanism for rotating said worm shaft, an upright shaft, a set of bevel gears at each end thereof, one operatively connected with the drivin means for the main driving shaft, and utch mechanism between the other set of bevel gears and the worm shaft, a cam shaft, means thereon including safety mechanism for rotating said cam shaft from the worm shaft, a sliding tool carriage, a slide, ull rods connecting the slide with the sli in tool carriage, means carried by dhe cam s aft for shifting said slide, the

work spindles being located between the sliding tool carriage and the slide, and means forfeeding the stock to the work spindles and also connected with said slide.

69. In a multiple spindle machine, the combination of four rotary spindles, gears carried by each of said spindles, means for rotating said gears and includin a shaft extending in parallelism with sai spindles, a main driving shaft extending transversely to said spindles, gears carried by said shafts, means including change ear mechanism for driving said main driving shaft, a worm shaft, means including change ear mechanism for rotating said worm s aft, an upright shaft, a set of bevel gears at each end thereof, one operatively connected with the driving means for the main driving shaft, and clutch mechanism between the other set of bevel gears and the worm shaft, a cam shaft, mean thereon includinglsafety mechanism for rotating said cam s aft from the worm shaft, a sliding tool carriage, a slide, pull rods connecting the slide with the sliding tool carria e, means carried by the cam shaft for shifting said slide, the work spindles being located between the sliding tool carriage and the slide, means for feeding the stock ,to the work spindles and also connected with said slide, a slide supported above the Work spindles, a plurality of side working tools carried by said slide, and means carried by the cam shaft for shifting the side working tool slide. a

70. In a multiple spindle machine, the combination of four rotary spindles, gears carried by each of'said spindles, means for rotating said gears and including a shaft extending in parallelsim with said spindles, a main dciving shaft extending transversely to said spindles, gears carried by said shafts, means including change gear mechanism for driving said main driving shaft, a worm shaft, means includin change gear mechanism for rotating sai worm shaft, an uprightshaft, a set ofbevel gears at each end thereof, one operatively connected with the driving means for the main driving shaft, and clutch mechanism between the other set of bevel gears and the worm shaft, a cam shaft, means thereon includin safety mechanism for rotatin said cam s it from the worm shaft, a sliding tool carriage, a slide, pull rods connecting the slide wit- 1 the sliding tool carriage, means carried by the cam shaft for shifting said slide, the work spin-v dles being located between the sliding tool carriage and the slide, means for feeding the stock to the work spindles and also connected with said slide, a slide supported above the work spindles, pluralit of side working tools carried by said sli e, means carried by the cam shaft for shifting the side working tool slide, and a plurality of work stops carried by and shiftable with said side tool slide.

71. In a multiple spindle machine, the combination of two pairs of rotary spindles means for rotating them wedge operated means carried by eacho said spindles, a cam shaft, means for operatin it, a pair of levers operated by said" cam s aft, and dulicatemeans carried by each of said levers or operating a pair of said wedge operated means.

72. In a multiple spindle machine, the combination of two pairs of rotary spindles, means for rotating them, wedge operated means carried by each o'f said spindles, a cam shaft, means for operating it, a pair of levers operated by said cam shaft, duplicute means carried by each of said levers for operating a pair of said wedge operated -means, a feed tube carried by each of said spindles, and duplicate means for operating said feed tubes, each of said means operating a pair of said tubes.

(3. In a multiple s indle machine, the combination of a plura lty df work spindles, a plurality of endwise working tools located in alinement with said work spindles, means for rotating the work spindles and the tools one relatively to the other, means for shifting the work spindles and the tools into engagement one relatively to the other, a pluralit of cut-oil and forming tools located a ve the work spindles, and means for shifting the same transversely only relatively to and into and out of engagement with the work. v

74. In a multiple spindle machine, the 

